1. Inner ear insult suppresses the respiratory response to carbon dioxide
- Author
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Allen, T., Juric-Sekhar, G., Campbell, S., Mussar, K.E., Seidel, K., Tan, J., Zyphur, M., Villagracia, L., Stephanian, D., Koch, H., Ramirez, J.M., and Rubens, D.D.
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INNER ear , *CARBON dioxide , *ACIDOSIS , *LABORATORY mice , *HAIR cells , *GENTAMICIN , *SUDDEN infant death syndrome - Abstract
Abstract: Compensated respiratory acidosis has been observed in a significant number of patients with active vestibular disease. We therefore hypothesized that the inner ear may play an unrecognized integral role in respiratory control. To test this premise, we investigated whether mice with induced inner ear injury demonstrated any alteration in their respiratory response to inhaled carbon dioxide (CO2). Experimental mice and control mice were included in two separate experiments. Intra-tympanic gentamycin injections were administered to induce inner ear damage in experimental animals. Hearing loss and vestibular dysfunction were tested 1-week after injections to confirm presence of inner ear insult, following which the animal''s respiratory response to inhalation of 8% CO2 was examined. Mice with inner ear injury (n=60) displayed a significantly diminished hypercapnic ventilatory response (HCVR). This contrasted with the normal HCVR seen in control mice that had not undergone tympanic injections (n=30), controls that received tympanic injections with saline (n=5), and controls that had gentamicin administered systemically (n=5). In response to inspired CO2, the mean respiratory frequency of control mice increased by an average of 50% over their baseline values for both parts of the experiment. In contrast, the ear-damaged experimental group mean values increased by only three breaths per minute (bpm) (2%) in the first experiment and by 28 bpm (11%) in the second experiment. Inner ear damage significantly reduces the respiratory response to CO2 inhalation. In addition to the established role of the inner ear organ in hearing and balance, this alludes to an unidentified function of the inner ear and its interconnecting neuronal pathways in respiratory regulation. This finding may offer valuable new clues for disease states with abnormal respiratory control where inner ear dysfunction may be present. [Copyright &y& Elsevier]
- Published
- 2011
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